KR100546317B1 - Method for detecting optical disc - Google Patents

Abstract

The present invention relates to an optical disk driving method, and more particularly, to an optical disk discriminating method for determining the type of an optical disk by measuring an RF signal while the focus servo is operated. A method of determining the type of optical disc mounted on a tray, the method comprising: (a) determining whether the optical disc is a CD or a DVD using a distance between the surface reflection signal and the diffusely reflected signal of the optical disc, and (b) the If the optical disc is a DVD, determining that the size of the focus error signal is constant while the focus servo is turned on, and adjusting the optical power to output a constant RF signal; and (c) the constantly adjusted RF. And comparing the signal with a reference value to determine the type of the DVD optical disc. According to the present invention, by measuring the RF signal while operating the focus servo to determine the type of the optical disk, the effect that can improve the problem that the type of the optical disk is incorrectly recognized due to the existing pickup dispersion.

Description

Method for detecting optical disc

1 is a flowchart showing the operation of a conventional optical disc determination method.

FIG. 2 is a waveform diagram illustrating FIG. 1.

3 is a block diagram showing the configuration of an optical disc discrimination apparatus.

4 is a flowchart showing the operation of the optical disc determination method according to the present invention.

FIG. 5 is a waveform diagram illustrating FIG. 4.

The present invention relates to an optical disk driving method, and more particularly, to an optical disk discriminating method for determining the type of an optical disk by measuring an RF signal while the focus servo is operated.

In terms of recording capacity of information and image quality, research on DVD is being actively conducted as a next-generation information medium that exceeds current magnetic tapes and CDs. DVD systems employing DVDs can play not only DVDs but also existing low-density discs, such as CDs, with a small track pitch. It is advantageous from the side and the like.

1 is a flowchart showing the operation of a conventional optical disc determination method, in which an optical disc is mounted on a tray of a DVD system, and it is determined whether the mounted optical disc is a CD or a DVD (steps 100 and 101). The criterion for determining whether the mounted optical disc is a CD or a DVD can be determined using the distance between the surface reflection and the S-curve. In the waveform diagram of Fig. 2, the part 1 is a waveform diagram in the process of distinguishing CD and DVD. In this process, the S-curve represents a signal reflected by the processed pits on the optical disk when light is scanned onto the recording surface of the optical disk.

If it is determined that the type of the optical disc is DVD, the type of the DVD optical disc is determined by measuring the size of S_curve (steps 102 and 103).

If the size of the S_curve is smaller than the reference value of 1.54V, the type of the optical disc is determined to be DVD ± RW (step 104). If the size of the S_curve is larger than the reference value of 1.54V, the type of the optical disc is determined to be the DVD-ROM. Step 105). In the waveform diagram of Fig. 2, the part 2 is a waveform diagram in the process of distinguishing DVD ± RW or DVD-ROM. In this process, the DVD-ROM is divided into a single layer and a dual layer, and the number of S_curve can be determined. . When the determination of the type of optical disk is completed, the focus servo is turned on (part 3 in FIG. 2), and playback of the optical disk is started.

As described above, the determination of the type of a conventional DVD disc is made based on the size and number of S_curve. However, since the focus error distribution of the pickup is large, it is impossible to use an algorithm for discriminating the DVD-ROM and the DVD ± RW using the size of the focus error applied previously. This is because the dispersion of the focus error magnitude of the pickup is as large as the optical disk reflectance difference. Because of this, the size of the focus error alone does not provide a threshold for dividing DVD-ROM and DVD ± RW. The reason for the large dispersion of the focus error in the pickup is that the focus error may be different even when the hologram and the light spot are aligned to produce the same optical power or the same size RF signal.

SUMMARY OF THE INVENTION The present invention has been made in an effort to provide an optical disc discrimination method for determining a type of an optical disc by measuring an RF signal while operating a focus servo.

In order to solve the technical problem to be solved by the present invention, an optical disc discrimination method is a method of discriminating a type of optical disc mounted on a tray, which comprises: (a) using a distance between a surface reflection signal and a diffusely reflected signal of the optical disc; Determining whether the optical disc is a CD or a DVD; (b) if the optical disc is a DVD, determining that the size of the focus error signal is constant while the focus servo is turned on, and adjusting the optical power to output a constant RF signal; And (c) determining the type of the DVD optical disc by comparing the constantly adjusted RF signal with a reference value.

In the present invention, in the step (c), if the RF signal is larger than the reference value, the type of the optical disk is characterized by determining that the DVD-ROM or DVD ± R.

In the present invention, in the step (c), if the RF signal is smaller than the reference value, the type of the optical disk is characterized by determining that DVD ± RW.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

3 is a block diagram showing the configuration of an optical disc discrimination apparatus, which includes an optical disc 300, an optical pickup 301, a filter shaping unit 302, a DSP 303, a servo 304, a controller 305, and a drive ( 306, a sled motor 307, and a spindle motor 308.

4 is a flowchart showing the operation of the optical disc determination method according to the present invention, which includes mounting an optical disc in a tray 400, determining whether the type of the optical disc is CD or DVD 401, and type of the optical disc. Is a DVD (step 402), determining whether the focus error signal is greater than or equal to the reference value (403), adjusting the size of the focus error constantly (404), and adjusting the optical power to output a predetermined RF signal. Step 405, determining whether the RF signal is equal to or greater than the reference value (406), determining the type of optical disc as DVD-ROM or DVD ± R (407), and determining the type of optical disc as DVD ± RW It consists of a step 408.

FIG. 5 is a waveform diagram illustrating FIG. 4.

Next, the present invention will be described in detail with reference to Figs.

The optical disk 300 is mounted on a tray (not shown) (step 400).

When the optical disc 300 is mounted on the tray, the pickup 301 reads out signals recorded on the optical disc 200. The filter shaping unit 302 adds or subtracts electrical signals output from the optical pickup 301 to output an RF signal, a focus error signal, and a tracking error signal. The DSP 303 recovers the RF signal output from the filter shaping unit 202 into a digital signal and processes the reproduction signal. The sled motor 307 moves the optical pickup 301, and the spindle motor 308 rotates the optical disk 300. The driver 306 drives the movement of the sled motor 207 and the rotation of the spindle motor 308. The servo 304 controls the operation of the optical pickup 301 and the driver 306.

When the mounting of the optical disc 300 is detected in the tray, the controller 305 determines whether the type of the optical disc 300 is a CD or a DVD (step 401).

The criterion for determining whether the mounted optical disc is a CD or a DVD can be determined using the distance between the surface reflection and the S-curve. In the waveform diagram of Fig. 5, the part 1 is a waveform diagram in the process of distinguishing CD and DVD. In this process, the S-curve represents a signal reflected by the processed pits on the optical disk when light is scanned onto the recording surface of the optical disk.

 As a result of the determination of the type of the optical disc 300, when the type of the optical disc 300 is DVD (step 402), the controller 305 determines whether the focus error signal is equal to or greater than the reference value (step 403).

Focus servo, one of the types of servo 304, winds a coil around an optical pickup 301 objective lens block placed in a magnetic field and moves it in the direction of the optical axis with a servo signal so that the reflective surface of the optical disk 300 continues to have a depth of focus. Adjust the position of the lens to come in. However, in order to operate the focus servo in this manner, a focus error signal (FE) is required.

The focus error signal moves the objective lens up and down at a frequency of 1 to 2 Hz oscillated by the servo 304 immediately after inserting the optical disk 300 into the player. Doing so brings the reflective surface of the optical disk 300 closer within the depth of focus of the lens, and therefore a noisy focus error signal starts to come out.

If the focus error signal is smaller than the reference value, it means that the dispersion of the focus error of the optical pickup 301 is small. Thus, the optical disk 300 may be determined in the same manner as in the conventional method. In the waveform diagram of FIG. 5, a part 2 is a waveform diagram in the process of determining the type of the DVD optical disc 300 by the size and number of S_curve because the distribution of the focus error is small.

That is, when the size of the S_curve is larger than the reference value of 1.54V, the type of the optical disc is determined as DVD ± RW. When the size of the S_curve is smaller than the reference value of 1.54V, the type of the optical disc is determined as the DVD-ROM. If the size of S_curve is smaller than the reference value of 1.54V and the number of S_curve is one, it is judged as Single Layer DVD-ROM. Judging by ROM.

However, when the focus error signal is larger than the reference value, that is, when the focus error distribution of the optical pickup 301 is large, the controller 305 cannot obtain a threshold value for determining the DVD optical disc 300. The size of the focus error signal is adjusted to be constant (step 404). In the waveform diagram of Fig. 5, part 3 is a waveform diagram in the process of adjusting the signal of the focus error to be constant.

After adjusting the focus error signal to be constantly output, the controller 305 turns on the servo (focus servo) 304 and adjusts the optical power to output a constant RF signal (step 405).

Since the optical pickup adjusts the optical power based on the RF signal size, the RF size distribution of the optical pickup 301 becomes small. Therefore, if the RF signal is taken from the optical disk 300 with the same RF gain, it can be seen that the size reflects the reflectance of the optical disk 300 as it is. In the waveform diagram of FIG. 5, the part ④ is a waveform diagram in the process of adjusting the optical power to operate the servo 304 and output a constant RF signal.

The controller 305 determines whether the regularly adjusted RF signal is greater than or equal to the reference value (step 406), and if the constantly adjusted RF signal is greater than or equal to the reference value, the type of the optical disk 300 is DVD-ROM or DVD ±. Determination of R (step 407).

The controller 305 determines whether the regularly adjusted RF signal is greater than or equal to the reference value (step 406), and if the constantly adjusted RF signal is less than or equal to the reference value, the type of the optical disk 300 is determined as DVD ± RW. (Step 408). If the optical disc 300 is determined to be DVD ± RW, the size of the focus error is readjusted, which corresponds to the part 5 in the waveform diagram of FIG.

When the determination of the type of the optical disk 300 is completed, the focus servo is restarted (part? In the waveform diagram of FIG. 5), and playback of the optical disk 300 is started.

The present invention is not limited to the above-described embodiments and can be modified by those skilled in the art within the spirit of the invention.

 As described above, according to the present invention, by measuring the RF signal while operating the focus servo to determine the type of optical disk, it is possible to improve the problem that the type of the optical disk is incorrectly recognized due to the existing pickup dispersion To create.

Claims (3)

As a method of determining the type of optical disc mounted in a tray, (a) determining whether the optical disk is a CD or a DVD using a distance between the surface reflection signal and the diffusely reflected signal of the optical disk; (b) After the optical disc is determined to be DVD, if the focus error signal is equal to or greater than the reference value, the focus error signal is constantly adjusted in the ON state of the focus servo, and the optical power is adjusted to output a constant RF signal. step; And (c) When the RF signal is larger than the reference RF value by comparing the constantly adjusted RF signal with a predetermined reference RF value, the type of the optical disc is determined as DVD-ROM or DVD ± R, and the RF signal is And determining the type of the optical disk to be DVD ± RW when the reference RF value is smaller than the reference RF value. delete delete

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